Druck DPI 880 Multi-function calibrator User Manual
Contents
1. 15 5 0 short circuit Then volts V 0 5 15 30 6 Make sure that the error is in the specified limits Table 12 or Table 13 Table 12 mV input error limits Applied Calibrator Permitted mV error DPI 880 error mV mV 120 0 001 3 0 03 60 0 000 8 0 02 30 0 000 6 0 02 0 Short circuit 0 01 Table 13 Volts V input error limits Applied Calibrator Permitted v error DPI 880 error v V 30 0 000 58 0 004 15 0 000 11 0 002 5 0 000 06 0 001 0 Short circuit 0 001 K405 Issue 3 Calibration Procedures mV Volts output 1 Connect the instrument to the calibration equipment Figure 4 2 Let the equipment get to a stable temperature minimum 5 minutes since the last power on 3 Use the calibration menu Table 9 to do a two point calibration Zero and FS The display shows the applicable instructions to complete the calibration 4 To make sure that the calibration is correct select the applicable mV or Volts output task Table 2 5 Then set the output values that are applicable to the calibration e mV 0 30 60 90 120 OR e Volts V 0 3 6 9 12 6 Make sure that the error is in the specified limits Table 14 or Table 15 Table 14 mV output error limits Output Calibrator Permitted mV error DPI 880 error mV mV 0 0 000 05 0 01 30 0 000 425 0 02 60 0 000 8 0 03 90 0 001 175 0 03 120 0 000 982. 2006 General Electric Company All rights reserved Trademarks All product names are trademarks of their respective companies K405 Issue 3 Specification General 17 Electrical A1 Item 10 7 Electrical connectors A2 7 Temperature ranges RTD 8 Resistance ranges ONMS RTD ii 8 Frequency 8 Temperature ranges TC 9 MV TC TINGE ee 9 Customer service ssssssssseressrrssrrrssrrnsrrrss nns rrnn Back cover EN English 1 Introduction The DPI 880 Multi function Calibrator is part of the Druck DPI 8xx series of hand held instruments This series of instruments uses Intelligent Digital Output Sensor IDOS technology to give instant plug and play functionality with a range of Universal Measurement odules UMM Example the Universal Pressure Module UPM The DPI 880 includes these functions Function Measure mA Volts mV Hz pulse count To Supply mA Volts mV Hz pulse count Measure simulate a Resistance Temperature Detector RTD Q or C F a thermocouple TC mV or C F a resistor Q Cold Junction CJ compensation Automatic Manual Step Ramp functions Automatic Manual Communications port IDOS or RS232 Language selection Refer to Table 1 Measure pressure Leak test External IDOS UPM Snapshot Up to 1000 displays with a date time stamp 2500 series resistor Use this inst
3. Figure 7 Example configuration To measure the temperature or resistance For an input the display shows the number of RTD or resistance connections an Four wire RTD attached If this symbol does not agree with the number of connections e Make sure that the connections are correct e Make sure that the wires and the sensor are serviceable K405 Issue 3 EN English 9 Operation Measure simulate a Thermocouple To measure simulate the TC values 1 Connect the instrument Figure 9 and if necessary adjust the Set Up Table 1 2 Select the task from the task selection menu Table 2 3 Select Settings ll Ml to change the operation from Temperature to mV or mV to Temperature 4 If necessary adjust the Settings Table 4 5 and or the output values to the system Table 7 C Gog lo RTRS n Qe mv i G E 4 4 OK CJ 25 4 i 0 373 1372 C p 75mV Settings Settings a C or F Input b mV Input AIYOO B TC E O mv Edit Settings c C or F Output Edit Settings d mV Output Figure 9 Example configuration To measure simulate the temperature C F or mV values of a TC 10 EN English Operation Transmitter calibration To calibrate a transmitter 1 Connect t
4. 25 50 75 e TC mV output 10 0 25 50 75 5 Make sure that the error is in the specified limits Table 20 Table 20 TC mV input output error limits Input Calibrator error Permitted DPI 880 error or output TC mv TC mv TC mV am amv GE mV or mv 10 0 000 5 0 000 18 0 008 0 008 0 0 00005 0 006 0 006 25 0 000 6 0 000 36 0 010 0 010 50 0 000 8 0 000 68 0 014 0 014 75 0 001 0 0 00099 0 018 0 018 Calibration Procedures IDOS UMM Refer to the user manual for the IDOS UMM When the calibration is complete the instrument automatically sets a new calibration date in the UMM K405 Issue 3 Specification All accuracy statements include one year stability Specification General Languages English Default Operating 14 to 122 F 10 to 50 C temperature Storage 4 to 158 F 20 to 70 C temperature Humidity 0 to 90 without condensation Def Stan 66 31 8 6 cat III Shock Vibration BS EN 61010 2001 Def Stan 66 31 8 4 cat III EMC BS EN 61326 1 1998 A2 2001 Safety Electrical BS EN 61010 2001 CE Marked Size L W H 71x3 3x2 0 in 180 x 85 x 50 mm Weight 15 oz 425 g Power supply 3 x AA alkaline batteries Duration Measure functions area 60 hours Dual Function mA measure area 7 hours 24 V Source at 12 mA Specification Electrical A1 Item 10 0 to 55 mA 0 to 120 mV 0 to 40000 0 t
5. E BI to set a value less than the switch W Caca value b Use the A W buttons to change the value in small a ata increments PMI e Example Ramp output a Set High and Low values that are applicable to he switch value Table 6 Then to get an accurate e 8 ex switch value set a long Travel period E x b Use Start Stop ll BB to start and stop the Ramp 5 03 15 03 cycle 1878 P i 0 14 in 4 If necessary supply he output values in the opposite me 4e cA direction until the switch changes condition again Gerosa bl Leak test The display shows the applicable values to open and y close the switch Figure 13 Example configuration Pressure measurement with a UPM 5 To do the test again press ESC to reset the values an When the connections are complete make the necessary IDOS selections Table 2 3 Each time you use a different UPM the DPI 880 records its measurement units capacity the last 10 different UPM When you re attach one of the last 10 UPM the DPI 880 automatically uses the applicable units psi mbar UPM Measure the pressure leak test To measure the pressure with or without a leak test NS Figure 13 1 Select the applicable pressure task from the task oe ON OPE oA selection menu Table 2 3 and if nec
6. to 1562 200 to 850 0 45 0 25 Pt200 385 IEC 751 328 to 1562 200 to 850 1 08 0 60 Pt500 385 IEC 751 328 to 1562 200 to 850 0 72 0 40 Pt1000 385 IEC 751 328 to 752 200 to 400 0 36 0 20 D 100 392 JIS 1604 1989 328 to 1202 200 to 650 0 45 0 25 Ni 100 DIN 43760 76 to 482 60 to 250 0 36 0 20 Ni 120 MINCO 7 120 112 to 500 80 to 260 0 36 0 20 Temperature coefficient 14 to 50 F 86 to 122 F 0 0028 FS F 10 to 10 C 30 to 50 C 0 005 FS C Specification Resistance ranges Ohms RTD Range Q Excitation mA Accuracy Q Measure Supply O to 400 0 10 to0 5 0 15 O to 400 0 50 to 3 0 0 10 0 10 400 to 1500 0 10 to 0 8 0 50 0 50 1500 to 3200 0 05 to 0 4 1 00 1 00 3200 to 4000 0 05 to0 3 1 30 1 30 Temperature coefficient 14 to 50 F 86 to 122 F 0 0028 FS F 10 to 10 C 30 to 50 C 0 005 FS C Specification Frequency cpm counts minute cph counts hour Range Measure Accuracy 0 to 999 999 Hz For all the ranges 0 to 50 0000 kHz 0 003 of reading 2 counts cpm 0 to 999 999 cph 0 to 999 999 ppm pulses minute pph pulses hour Range Supply Accuracy 0 to 999 99 Hz 0 003 of reading 0 0023 Hz 0 to 50 000 kHz 0 003 of reading 0 0336 Hz ppm 0 to 59 999 0 003 of reading 0 138 cpm pph 0 to 99 999 0 003 of reading 0 5 cph Temperature coefficient 14 to 50 F 86 to 122 F 0 0017 FS F 10 to 10 C 30 to 50 C 0 003 FS C Output waveform FH Square bipolar
7. two point calibration for each range e Range 0 399 9Q a Nominal zero ohms Make a 4 wire connection to he 0Q resistor Figure 7 b Nominal positive full scale ohms Make a 4 wire connection to the 4000 resistor Figure 7 e Range 4000 4kQ a Nomina t b Nomina connection to The zero ohms Make a 4 wire connection to he 400Q resistor Figure 7 positive full scale ohms Make a 4 wire he 4kQ resistor Figure 7 display shows the applicable instructions to calibrate each range 3 To make sure tha app the calibration is correct select the licable ohms input task Table 2 4 Make a 4 wire connection to the applicable standard resistor Table 18 and measure the value Figure 7 5 Make sure that the error is in the specified limits Table 18 Table 18 RTD Ohms input error limits Standard Resistor Permitted Resistor error DPI 880 error Q Q Q 0 Short circuit 0 05 100 0 008 0 05 200 0 013 0 05 300 0 018 0 05 400 0 007 0 05 1k 0 042 0 25 2k 0 052 0 25 4k 0 072 0 50 Or an equivalent resistance simulator 16 EN English Calibration Procedures RTD Ohms output 1 Connect the instrument to the calibration equipment Figure 8 2 Let the equipment get to a stable temperature minimum 5 minutes since the last power on 3 Use the calibration menu Table 9 to do a two point ca
8. voltage input Oto 30 V Trigger level 0 to 12 V Resolution 0 1 V Output amplitude 0 1 to 12 V dc 1 lt 10 mA 0 1 to 12 V ac 5 lt 10 mA Peak to Peak 18 EN English K405 Issue 3 Specification Temperature ranges TC K405 Issue 3 Thermocouple type Standard Range F Range C Accuracy F Accuracy C K EC 584 454 to 328 270 to 200 3 6 2 0 K EC 584 328 to 2502 200 to 1372 11 0 6 J EC 584 346 to 2192 210 to 1200 0 9 0 5 T EC 584 454 to 292 270 to 180 25 14 T EC 584 292 to 94 180 to 70 0 9 0 5 T EC 584 94 to 752 70 to 400 0 6 0 3 B EC 584 32 to 932 0 to 500 7 2 40 B EC 584 932 to 2192 500 to 200 3 6 2 0 B EC 584 2192 to 3308 1200 to 820 8 0 R EC 584 58 to 32 50 to 0 5 4 3 0 R EC 584 32 to 572 0 to 300 3 6 2 0 R EC 584 572 to 3214 300 to 768 8 0 S EC 584 58 to 32 50 to 0 45 2 5 S EC 584 32 to 212 0 to 100 3 4 I S EC 584 212 to 3214 100 to 768 2 5 4 E EC 584 454 to 238 270 to 150 6 0 9 E EC 584 238 to 1832 150 to 000 0 7 0 4 N EC 584 454 to 4 270 to 20 8 0 N EC 584 4 to 2372 20 to 300 sd 0 6 L DIN 43710 328 to 1652 200 to 900 0 6 0 3 U DIN 43710 328 to 212 200 to 100 0 9 0 5 U DIN 43710 212 to 1112 100 to 600 0 6 0 3 Cc 32 to 2732 0 to 500 8 1 0 C 2732 to 3632 1500 to 2000 2 5 1 4 C 3632 to 4199 2000 to 2315 3 4 19 D 32 to 3092 0 to 70
9. 0 04 Table 15 Volts V output error limits Output Calibrator Permitted v error DPI 880 error Vv Vv 0 0 000 000 05 0 001 3 0 000 017 5 0 002 6 0 000 03 0 002 9 0 000 05 0 002 12 0 000 134 0 002 Calibration Procedures Hz input output 1 Connect the instrument to the calibration equipment Figure 6 2 Let the equipment get to a stable temperature minimum 5 minutes since the last power on K405 Issue 3 3 Set up the equipment with these conditions Frequency meter Signal generator DPI 880 Gate time one second Output 10V unipolar square wave Frequency 990 Hz Input units Hz Table 4 Input trigger level 5V Table 4 4 Use the calibration menu Table 9 to do the calibration The display shows the applicable instructions to complete the calibration 5 To make sure that the calibration is correct set up the equipment to do one of these calibration checks e Hz input calibration check Figure 6 Frequency meter Signal generator DPI 880 Gate time one second Output 10V unipolar square wave Input trigger level 5V Table 4 Units Table 4 Hz or kHz as specified in Table 16 17 e Hz output calibration check Figure 6 Frequency meter DPI 880 Gate time one second Units Table 5 Hz or kHz as specified in Table 16 17 6 Measure or supply the specified values Table 16 17 Hz then kHz Make sure that the er
10. 0 8 1 0 D 3092 to 3992 1700 to 2200 2 9 1 6 D 3992 to 4514 2200 to 2490 6 5 3 6 Cold Junction CJ error Maximum Range 50 to 86 F 10 to 30 C 0 4 F 0 2 C Add 0 01 CJ error ambient temperature change for ranges 14 to 50 F 86 to 122 F 10 to 10 C 30 to 50 C Specification mV TC range Range Impedance Accuracy mv Measure Supply 10 to 75 lt 0 20 0 02 of reading 7 counts EN English 19 20 EN English K405 Issue 3 Customer service Visit our web site www gesensing com
11. 001 Calibration Procedures mA output 1 14 Use the calibration menu Table 9 to do a To make sure that the calibration is correc Make sure that the error is in the specified Connect the instrument to the calibration equipment Figure 1 Let the equipment get to a stable temperature minimum 5 minutes since the last power on wo point calibration Zero and FS The display shows the applicable instructions to complete the calibration select the applicable mA output task Table 2 and set these output values mA 0 1 4 12 20 24 imits Table 11 EN English Table 11 MA output error limits Calibrator error Permitted DPI 880 error 12 0 001 4 20 0 002 0 002 24 0 002 3 0 002 Calibration Procedures mV Volts input 1 Connect the instrument to the ci Figure 4 2 Let the equipment get to a stab 3 Use the calibration menu Table calibration FS Zero and FS T applicable instructions to comp 4 To make sure that the calibratio applicable mV or Volts input tas 5 Then apply the input values tha calibration e mV 120 60 30 0 short circu Then mV 0 30 60 120 OR calibration equipment e temperature minimum 5 minutes since the last power on 9 to do a three point he display shows the ete the calibration nis correct select the Table 2 are applicable to the it e Volts VI 30
12. GE Sensing Druck DPI 880 Multi function calibrator User manual K405 AI BoBo _ K405 Issue 3 Table of Contents Marks and sym To start Key to figure A1 A2 Instrument Key to figure A3 Display Prepare the instrument Power on or off Set up the basic operation Select a task Measure and or supply 4 Set up the settings Operation Electrical connections Communications port connections Change the output values easure supply mA easure supply Volts or mV easure supply Hz or pulses RTD Ohms connections easure simulate an RTD or Ohms Thermocouple TC connections 9 easure simulate a Thermocouple Transmitter calibration Switch test UPM Pressure measurements Error indications Maintenance ou ecessesessesesessesececsecessesecusncseeessesecesseenenenee 12 Clean the unit Replace the batteries Pr Calibration u Before you start Procedures mA input Procedures mA output Procedures mV Volts input Procedures mV Volts output Procedures Hz input output Procedures CJ input 4 Procedures RTD OMS input Procedures RTD Ohms output Procedures TC mV input output 7 Procedures IDOS UMM x i iii 7 N N Unn Pr r wwnmnmm a NO
13. Settings a Input b Output Figure 6 Example configuration To measure supply Hz or Pulses For an input the display shows the condition of the frequency gate 4 Gate open measurement starts Gate closed measurement is waiting for the next rising edge of the cycle FA Fast cycle Operation RTD Ohms connections In the examples that follow 2W 3W and 4W identify the 2 3 and 4 wire connections for a RTD or resistance K405 Issue 3 Operation Measure simulate an RTD or Ohms To measure simulate RTD values or Ohms 1 Connect the instrument Figure 7 8 and if necessary adjust the Set Up Table 1 2 Select the task from the task selection menu Table 2 3 If necessary adjust the Settings Table 4 5 and or the output values to the system Table 7 zl annan AOUE RTO of DEI B of ofc ONS gt Pt100 0 0 gt 0 0 850 C 40002 SII Edit Settings Edit Settings ol si a RTD C or F b Ohms O Cers Figure 8 Example configuration To simulate the temperature or resistance Operation Thermocouple TC connections Attach the TC wires to the applicable TC mini connector Figure 9 The wider blade is the negative Then attach the Settings connector to the instrument a RTD C or F b Ohms Q ei O80 OVE
14. Volts or mV To measure supply Volts or mV 1 Connect the instrument Figure 4 5 and if necessary adjust the Set Up Table 1 2 Select the task from the task selection menu Table 2 3 Note Use the Dual Function area to do two operations at the same time If the area selection is not necessary set this area to off I This saves the battery power 3 If necessary adjust the Settings Table 4 5 and or the output values to the system Table 7 Oto 30V OR 0 to 120mV ps a Oto 12V OR 0 to 120mV Aw 30VMAX cBn gen III gt a Ss A 30Volts Me 12Volts Edit Settings a Measure 6 Supply Figure 4 Example configuration To measure supply Volts or mV Area 0 to 30V Oma E IL 30Volts 30Volts Figure 5 Example configuration To measure Volts Dual Function area 8 EN English Operation Measure supply Hz or pulses To measure supply Hz or pulses 1 Connect the instrument Figure 6 and if necessary adjust the Set Up Table 1 2 Select the task from the task selection menu Table 2 3 If necessary adjust the Settings Table 4 5 and or the output values to the system Table 7 e Settings Edit
15. e 5 Part of table Menu options Settings Output Operation Opti D ipti 5 y 5 irai SSCTIPNON This section gives examples of how to connect and use the wor To select and set up values for the Span Check instrument Before you start 3 o output Example output cycle e Read and understand the Safety section ap ge e Do not use a damaged instrument 100 Operation Electrical connections sale This cycle repeats To prevent instrument errors make sure that the electrical automatically g 0 connections A1 item 10 and or A2 are correct Additional data Table 6 Select Settings EM The Help button A3 Item 25 shows a connection ipl Step To select and set up values for the Step output diagram for the task selections you have set Example output cycle u Operation Communications port connections 100 l Use the communications port A1 item 9 to attach an s Pr j Auto Repeat Optional IDOS Universal Measurement Module UMM Aa When you attach the cable from a UMM Figure 13 14 the 0 instrument automatically changes the menus to give you Additional data Table 6 Select Settings Ii I all the applicable options Table 2 3 JT Step To select and set up values for the Defined Step Operation Change the output values tput E le output cycle Su SEPE CRE When the output operation is set up Table 5 use one of 100 t these procedures to change the output values i Auto Repeat Optional Table 7 Proced
16. e the Settings menu to adjust the input and or output operation Display Task mA IDOS Settings selection If applicable 2 3 Sk1 Start Stop Sk2 Settings Menu 4A SA Display 6A 7A Settings units T3 Table 4 Table 4 o Menu Settings 48 SE f gt OMM Sk2 Table 5 0 If there is additional data for a menu option select Settings II I to see the values that are set up If necessary adjust the values K405 Issue 3 Table 4 Menu options Settings Input Options If applicable Description Units Pressure Units UPM only If you select an IDOS task Table 2 3 Select one of the fixed units of measurement psi mbar Temperature Units RTD or TC only To select the temperature units C or F Frequency Units Hz only To select one of these units Hz Range lt 1000Hz kHz Range 0 to 50kHz counts minute cpm counts hour cph oe n TC only Change the measurement operation Temperature to mV OR mV to Temperature CJ TC only To select the type of cold junction CJ compensation Automatic The instrument monitors the CJ temperature and applies the necessary CJ compensation Manual Measure the CJ temperature and set the applicable value The instrument uses this value to apply the necessary CJ compensation Select RTD Type RTD only To select an applicable RTD type Pt50 Pt100 Select TC Type TC only T
17. ee T nn Rig gt y Refer to Table 2 3 the display Item 24 Example Settings 571023 7 ETEN er 4 he thermocouple type IK J T Table 4 5 9 SENSOR Communications port Use to connect a Universal im idi g pe Yp bl PC Measurement Module UMM or a RS232 cable CJ The cold junction temperature Table 1 10 Connectors to measure or supply the specified Pt he RTD type Pt50 Table 4 5 values Refer to Operation mtn RTD input connections 2 3 or 4 Figure 7 COM Common connector 5 0V aV The npa ee si Table 4 or the output 3W 4W 3 wire 4 wire RTD input amplituden alex 11 Connection point for some of the optional 22 nf a Output operation Table 5 accessories Refer to the datasheet PEA The measured values applicable to the task 12 Battery compartment Refer to B1 sa selections in item 25 area D and 13 14 15 Dual Function Connectors to measure or supply the Mm the measurement range and units specified values Refer to Operation 24 Sk1 2 A soft key function To select an available function Vin as Volts input or switch press the soft key below it Example 24Vo 24V loop power supply 4 Moveleft i Move right 25 The task selection menu One task selection is permitted in each area D and SUN cursor position flashes on of fox p f a button or task selection is set in area D or O Sets the Dual Function area selections to off This saves the battery power Ref
18. er to Table 2 3 5 Help Shows a connection diagram for the task 2 selections you have set Set Up Shows the Set Up menu to set up the basic A operation Refer to Table 1 OK Accepts the selections on the menu ex Note MENU OK also does this Utilities Leak Test Use this function with a UPM Refer ad to Figure 13 Snapshot Optional item To use this facility install the data logging upgrade kit Refer to the user manual K397 DPI 800 series data logging upgrade kit K405 Issue 3 EN English 3 To start Prepare the instrument Before you use the instrument for the first time e Make sure that there is no damage to the instrument and that there are no missing items e Remove the plastic film that protects the display Use the tag Jin the top right hand corner e Install the batteries refer to B1 Then re attach the cover To start Power on or off To set the power on or off press O A1 item 1 The instrument does a self test and then shows the applicable data When the power is off the last set of configuration options stays in memory Refer to Maintenance To start Set up the basic operation Use the Set Up menu to set up the basic operation of the instrument Task selection Menu 1 2 3 Set Up 4 5 menu Table 2 Table 1 VV If there is additional data for a menu option select Settings I I to see the values that are set up If necessary adjust the values Table 1 Menu option
19. eration Measure supply mA To measure supply a current 1 Connect the instrument Figure 1 2 or 3 and if necessary adjust the Set Up Table 1 2 Select the task from the task selection menu Table 2 3 Note Use the Dual Function area to do two operations at the same time If the area selection is not necessary set this area to off I This saves the battery power 3 If necessary adjust the Settings Table 4 5 and or the output values to the system Table 7 e Maximum 30V te oema r 4 24V 2 4 083 24mA oe 4 083 Geima ea mA Edit Settings Me Ero Figure 2 Example configuration To supply mA with internal i loop power Area e S o op Maximum 30V 0 083 Ss 0 000 E 55MA 24mA rag lt gt E FED a Measure b Supply Figure 1 Example configuration To measure supply mA ome with external loop power Area dis Be ODE Eu O 452 IS r as O 4 SS 24V Grm 400082 40000 oe amp 0 083 0 083 55mA 55mA a with externalloop b with internal loop power power Figure 3 Example configuration To measure mA Dual Function area K405 Issue 3 EN English 7 Operation Measure supply
20. essary adjust the 2 MAJ 24v Set Up Table 1 and the Settings Table 4 5 C9 fi Utilities function Use this function to include the Leak Test option A H A SK z 2 If applicable set the period for the leak test Table 4 S rc 3 If necessary do a zero correction Table 4 e 1020 4 To start the leak test select Start ill ll When the test is oe 100 0 nr En samen finished the instrument calculates the leak rate in the applicable units minute Figure 12 Example configuration Switch test To measure pressure with another operation Figure 14 use the same procedure K405 Issue 3 EN English 11 CIES BUY DUALA GK CJ 25 4 1972 C ce 5 03 30 9 Settings Figure 14 Example configuration To measure pressure and temperature Operation Error indications If the display shows lt lt lt lt or gt gt gt gt e Make sure that the range is correct e Make sure that all the related equipment and connections are serviceable 12 EN English Maintenance This section gives procedures to maintain the unit in a good condition Return the instrument to the manufacturer or an approved service agent for all repairs Do not dispose of this product as household waste Use an approved organisation that collects and or recycles waste electrical and electronic equipment For more info
21. h ON OFF Y Do not dispose of this product as household waste Refer to zu Maintenance More marks and symbols are specified in To start K405 Issue 3 To start To start Key to figure A3 Display To start Key to figure A1 A2 Inst t tem el O Start Key to figure nstrumen INTRO s y g 16 co ask indication for the switch test Item Description 3 switch closed e switch open 1 O On or off button cs gt z CA UPM only Task indication for the leak test 2 sn Left hand soft key Selects the function above it on the display Item 24 Example Edit 250 here is a 250Q series resistor in the mA circuit 3 Moves back one menu level Refer to Table 2 3 ESC Leaves a menu option n is the ch 17 24v The loop power supply is on ancels the changes to a value Refer to Table 2 3 4 x ae en a value 18 H he data on the display is on hold To continue press DEE l eremi m m the HOLD button again 5 Holds the data on the display To continue press the HOLD HOLD button again 19 Shows the battery level 0 to 100 6 MENU Shows the task selection menu Item 25 20 GG identifies the type of data OK Selects or accepts an item or value amp Input Output Selects v or cancels a selection A ight hand soft key Selects the function above it on e
22. he instrument Figure 10 11 and if necessary adjust the Set Up Table 1 2 Select the applicable calibration task from the task selection menu Table 2 3 and if necessary adjust the Settings Table 4 5 3 Supply the output values to the system Table 7 Maximum 30V e aAa 8333 gt 5 0V a Vv 40 400 50kHz 0 083 55mA Edit Settings Figure 10 Example configuration Transmitter calibration with external loop power an B300 24V gt 5 0V s 40 400 0 083 Figure 11 Example configuration Transmitter calibration with internal loop power K405 Issue 3 Operation Switch test Operation UPM Pressure measurements To do tests on a switch Read all the instructions supplied with the UPM and then 1 Connect the instrument Figure 12 and if necessary use the specified procedures to connect it Figure 13 14 adjust the Set Up Table 1 A 2 Select the applicable switch test from the task selection menu Table 2 3 and if necessary adjust the Cy id Settings Table 5 The display shows the switch condition open or closed in the top right hand corner Supply the output values to the system Table 7 e Example Nudge output a Use Edit
23. libration for each range e Range 0 399 90 e Range 400Q 1999 9Q e Range 2kQ 4kQ The display shows the applicable instructions to calibrate each range 4 To make sure that the calibration is correct select the applicable ohms output task Table 2 5 Supply the specified values Table 19 Make sure that he error is in the specified limits Table 19 RTD Ohms output error limits Ohms Excitation Calibrator Permitted Q mA error DPI 880 error Q Q 0 0 50 to 3 0 0 003 0 05 100 0 50 to 3 0 0 004 0 06 200 0 50 to 3 0 0 005 0 06 300 0 50 to 3 0 0 007 0 07 400 0 50 to 3 0 0 008 0 07 1000 0 05 to 0 8 0 015 0 30 2000 0 05 to 0 4 0 026 0 40 4000 0 05 to 0 3 0 049 0 80 Refer to Specification K405 Issue 3 Calibration Procedures TC mV input output 1 Connect the instrument to the calibration equipment e TC mV input Figure 9b e TC MV output Figure 9d 2 Let the equipment get to a stable temperature minimum 5 minutes since the last power on 3 Use the calibration menu Table 9 to do the calibration e TC mV input three point calibration FS Zero and FS e TC MV output two point calibration Zero and FS The display shows the applicable instructions to complete the calibration 4 To make sure that the calibration is correct select the applicable TC mV input or output task Table 2 and apply the necessary values e TC MV input 10 0 short circuit Then TC mV
24. ment Function Calibration equipment ppm parts per million Gp Y L mA OR mA calibrator Table 9 mA Dual Accuracy mA input output Table 10 11 i Accuracy mA Dual Function Table 10 Table 9 Calibration options mV OR mV calibrator Options Description TC mv Accuracy mV input output Table 12 14 Ge To calibrate the specified input output ae TC mV Table 20 Gy mA mV Volts Hz RTD Ohms TC mV Volts OR Volts calibrator z Volts Dual Accuracy Volts input output Table 13 15 POS UMM only 15 Saliprateithe specified 1005 UMM Accuracy Volts Dual Function Table 13 Hz 1 Frequency meter Total error 7 ppm or better Resolution 8 digits minimum 2 Signal generator IDOS UMM only Refer to the user manual for the IDOS UMM CJ Standard RTD probe Accuracy 50 mK for 23 to 82 4 F 5 to 28 C Digital thermometer Accuracy 10 mK a Standard ON resistor Standard resistor Q 100 200 300 Tolerance 50 ppm 0 6 ppm C 5 ppm year Standard resistor Q 400 1k 2k 4k Tolerance 10 ppm 0 6 ppm C 5 ppm year gt An ohmmeter or an RTD measurement system RTD Ohms with the specified excitation currents Table 19 Or an equivalent resistance simulator K405 Issue 3 Refer to the user manual for the IDOS UMM CJ To calibrate the cold junction channel MA Dual To calibrate the mA Dual Function input Volts Dual T
25. o 30V Range Measure Accuracy Measure mA 0 02 of reading 3 counts Accuracy Measure mV 0 02 of reading 2 counts Accuracy Measure V 0 03 of reading 2 counts 0 to 24 mA 0 to 120 mV 0 to 40000 Oto 12 V Range Supply Accuracy Supply MA MV V 0 02 of reading 2 counts Temperature coefficient Measure or supply 14 to 50 F 86 to 122 F 10 to 10 C 30 to 50 C 0 0017 FS F 0 003 FS C Four 0 16 in 4 mm sockets One TC mini connector socket Connectors A1 Item 10 Refer to Specification Resistance ranges Ohms RTD Specification Electrical connectors A2 0 to 55 mA Oto 30 V Range Measure Accuracy Measure mA 0 02 of reading 3 counts Accuracy Measure V 0 03 of reading 2 counts Temperature coefficient 14 to 50 F 86 to 122 F 10 to 10 C 30 to 50 C 0 0017 FS F 0 003 FS C Switch detection Open and closed 2 mA current Loop power output 24 V 10 Maximum 35 mA HART resistor 2502 Connectors A2 Three 0 16 in 4 mm sockets EN English 17 Specification Temperature ranges RTD RTD type Standard Range F Range C Accuracy F Accuracy C Pt50 385 IEC 751 328 to 1562 200 to 850 0 90 0 50 Pt100 385 IEC 751 328
26. o calibrate the Volts Dual Function input Calibration Due To set the date of the next P calibration for the instrument After the specified calibration date there is a warning message There is a selection box to stop the warning amp To change the calibration PIN Personal Identification Number when you select a channel function the display shows the applicable instructions to complete the calibration when the calibration is complete select Calibration Due and set the new calibration date for the instrument EN English 13 Calibration Procedures mA input i To Connect the instrument to the calibration equipment Figure 3 the equipment get to a stable temperature minimum 5 minutes since the last power on Use the calibration menu Table 9 to do a three point ibration FS Zero and FS The display shows the applicable instructions to complete the calibration make sure that the calibration is correct select the applicable mA input task Table 2 and apply these values MA 55 40 24 18 12 6 0 open circuit Then mA 0 6 12 18 24 40 55 5 Make sure that the error is in the specified limits Table 10 Table 10 mA input error limits Applied Calibrator Permitted mA error DPI 880 error mA mA 55 0 002 2 0 005 40 0 0018 0 004 24 0 001 4 0 003 18 0 000 4 0 003 12 0 000 3 0 002 6 0 000 2 0 002 0 open circuit 0
27. o select an applicable thermocouple type IK J T Hz only To set the amplitude at which the instrument senses a frequency signal Default 5V Auto Detect Set this option to make the instrument calculate the value from the available signal 00 UPM only Gage sensors or sensors with differential operation A zero correction that makes the instrument read zero at local pressure Leak Test only To set an applicable period for the leak test Hours Minutes Seconds type Trigger level Table 5 Part of table Menu options Settings Output Options If applicable Description Units Pressure Temperature Refer to Table 4 Frequency Units Hz only To select one of these units Hz Range lt 1000Hz kHz Range 0 to 50kHz pulses minute ppm pulses hour pph O TC only Change the output operation Temperature to mV OR mV to Temperature CJ TC only Refer to Table 4 type Refer to Table 4 Amplitude Hz only To set the amplitude of the output signal Amplitude 5V Default o select and set up a value for the Nudge output Example 1 000 mA increments Additional data Select Settings II i a vw EN English 5 Tabl
28. ons Make the necessary selections from each area and One task is permitted in each area Note Use the Dual Function area to do two operations at the same time If the area selection is not necessary set this area to off BI This saves the battery power Table 2 Menu options Task selections Area Options Description If applicable a Input measurement tasks mA Measure 55 mA V Measure 30V mV I Measure 120mV Hz Measure the frequency Units Table 4 RTD I Measure RTD temperature Q Measure RTD resistance or Q TC Measure thermocouple temperature OR mV e Only when an IDOS UMM is attached An IDOS measurement task gt Output tasks MA Supply 0 to 24 mA V Supply 0 to 12V Supply 0 to 120mV Hz Supply an output frequency Units Table 4 RTD Simulate RTD temperature Q Simulate RTD resistance or Q mV TC Simulate thermocouple temperature OR mV K405 Issue 3 Table 3 Menu options Task selections Dual Function area Options If applicable Input measurement tasks O MA Measure 55 mA V Measure 30V MA 24V oe A switch test Only when an IDOS UMM is attached An IDOS measurement task Description White button A Dual Function is set Black button Dual Function area is set to off Measure 55 mA 24V loop power is on To start Set up the settings When the task is set up Table 2 3 us
29. rmation contact one of these e our customer service department Contact us at www gesensing com e your local government office Maintenance Clean the unit Clean the case with a moist lint free cloth and a weak detergent Do not use solvents or abrasive materials Maintenance Replace the batteries To replace the batteries refer to B1 Then re attach the cover Make sure that the time and date are correct The calibration facility uses the date to give service and calibration messages All the other configuration options stay in memory K405 Issue 3 Calibration Note GE can provide a calibration service that is traceable to international standards We recommend that you return the instrument to the Before you start the calibration make sure that the time and date on the instrument are correct Table 1 Selection sequence Task selection menu Set Up Table 1 Calibration Display Enter Menu manufacturer or an approved service agent for Calibration PIN SelectChannel amp 5 calibration If you use an alternative calibration facility make sure that a it uses these standards M Calibration Before you start L nu To do an accurate calibration you must have E Pe italica A y im P actor able e the calibration equipment specified in Table 8 si e a stable temperature environment 70 2 F 21 1 C Select punction 5b If applicable Table 8 Calibration equip
30. ror is in the specified limits Table 16 Hz error limits Measure Supply Measure Calibrator Permitted Supply error Hz DPI 880 error Hz Hz de gt 25 0 000 175 0 002 0 001 4 100 0 000 7 0 002 0 002 1 250 0 001 75 0 004 0 003 5 500 0 003 5 0 006 0 005 8 990 0 006 93 0 011 0 010 4 Table 17 kHz error limits Measure Supply Measure Calibrator Permitted Supply error kHz DPI 880 error kHz kHz a gt 2 500 0 0 017 5 0 000 2 0 000 042 10 000 0 0 07 0 000 2 0 000 112 20 000 0 0 14 0 000 3 0 000 205 30 000 0 0 21 0 000 4 0 000 298 50 000 0 0 35 0 000 6 0 000 483 EN English 15 Calibration Procedures CJ input 1 Connect the instrument to the calibration equipment Figure 9 2 Let the equipment get to a stable temperature minimum 5 minutes since the last power on 3 Use the calibration menu Table 9 to do a one point calibration FS The display shows the applicable instructions to complete the calibration 4 To make sure that the calibration is correct select the applicable T1 input task Table 2 5 Make sure that the DPI 880 gives a probe temperature hat agrees with the temperature on the digital hermometer 0 2 F 0 1 C Calibration Procedures RTD Ohms input 1 Let the equipment get to a stable temperature minimum 5 minutes since the last power on 2 Use the calibration menu Table 9 to do a
31. rument together with a HART communicator to set up and calibrate HART devices Switch test Other functions Hold Backlight Refer to Specification Optional item 2 EN English Safety Before you use the instrument make sure that you read and understand all the related data This includes all local safety procedures the instructions for the UMM if applicable and this publication WARNING e Itis dangerous to ignore the specified limits for the instrument or to use the instrument when it is not in its normal condition Use the applicable protection and obey all safety precautions e Donotusethe instrumentin locations with explosive gas vapor or dust There is a risk of an explosion e To prevent electrical shocks or damage to the instrument do not connect more than 30V between the terminals or between the terminals and the ground earth e UPM only To prevent a dangerous release of pressure isolate and bleed the system before you disconnect a pressure connection Before you start an operation or procedure in this publication make sure that you have the necessary skills if necessary with qualifications from an approved training establishment Follow good engineering practice at all times Safety Marks and symbols on the instrument Complies with European Warning refer to the C Union directives A manual nia Read the manual t Battery Ground Eart
32. s Set Up Options Description o select the applicable international temperature scale IPTS 68 or ITS 90 o add a 2500 series resistor into the mA circuit You can then use this instrument together with a HART communicator to set up and calibrate HART devices o select and set up the backlight facility timer Additional data Select Settings MM o select and set up the power off facility timer Additional data Select Settings Ei I o show the battery level 96 on o set the display contrast A Increases W decreases o set the time date The calibration facility uses the date to give service and calibration messages o set the language option o calibrate the instrument Additional data Refer to Calibration o select and show the applicable status data Software Build Calibration Due date Serial umber IDOS Information 4 EN English To start Select a task Measure and or supply When the instrument is set up Table 1 use the task selection menu to select the applicable task 1 Task selection 2 3 4 5 menu Table 2 3 Task mA output Task selection 6 Display menu mMA output BOC Rif od Table 2 3 Sk1 Sk2 Sk1 Edit Sk2 Settings If you attach a Universal Measurement Module UMM to the communications port A1 item 9 the task selection menu shows the applicable IDOS opti
33. ures to change the output rai Output Procedure u 0 A Select Edit I BI and or use the A W buttons Additional data Table 6 Select Settings II i x See the example below S To select and set up values for the Ramp output vor Pi Select Start Stop Ill BI or use the A W buttons Example output cycle to make the step changes manually 100 cet dik S Select Start Stop I Ml A Auto Repeat Optional Example procedure Nudge output pet Bin 1 Edit 2 3 Edt 4 Additional data Table 6 Select Settings Ei I Table 6 Additional data for Settings Output gt 0 0001 _ 2 24mA HE 01 000 Item Value L SI Check pan mnes SK1 Sk2 Low 0 Set the 0 value Ski Edit High 100 Set the 100 value Sk2 Settings Dwell d Set the period Hours Minutes Seconds between DI 3 y isplay each change in value MA output 5 6 Step Low 0 High 100 Dwell d As above Step Size s Set the change in value for each step as a percentage of the full scale range High Low 2 000 5 3 000 Defined Step Low 0 High 100 Dwell d As above Step Size s Set the change in value for each step Example 1 000 mA steps Increment 1 000 Ramp Low 0 High 100 Dwell d As above Table 5 Travel t Set the period Hours Minutes Seconds to go from the Low 0 value to the High 100 value Auto Repeat If applicable select this item to repeat a cycle continuously 6 EN English K405 Issue 3 Op
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